Motorola MVME162PA-344E Embedded Controller
Manual Terminology
Throughout this manual, a convention is used which precedes data and
address parameters by a character identifying the numeric format as follows:
dollar
% percent
specifies a hexadecimal character
specifies a binary number
& ampersand specifies a decimal number
Unless otherwise specified, all address references are in hexadecimal.
An asterisk (*) following the signal name for signals which are level-significant
denotes that the signal is true or valid when the signal is low.
An asterisk (*) following the signal name for signals which are edge-significant
denotes that the actions initiated by that signal occur on high-to-low
transition.
In this manual, assertion and negation are used to specify forcing a signal to a
particular state. In particular, assertion and assert refer to a signal that is active
or true; negation and negate indicate a signal that is inactive or false. These
terms are used independently of the voltage level (high or low) that they
represent.
In this manual, MVME712 series transition module refers generically to the
MVME712-12. MVME712-13. MVME712A, MVME712AM, or MVME712M.
MVME712x transition module refers to the closely related MVME712-12.
MVME712-13. MVME712A, or MVME712AM (not to the MVME712M).
References to a specific module use the complete designation of that module.
Data and address sizes are defined as follows:
A byte is eight bits, numbered 0 through 7. with bit 0 being the least
significant.
A word is 16 bits, numbered 0 through 15. with bit 0 being the least
significant.
A longword is 32 bits, numbered 0 through 31. with bit 0 being the least
significant
Introduction
This chapter provides unpacking instructions, hardware preparation
guidelines, and installation instructions for the MVME162 Embedded
Controller. Hardware preparation for the MVME712 series transition
modules is described in separate manuals; refer to the Related Documentation
section in Chapter 1
Hardware Preparation
To produce the desired configuration and ensure proper operation of the
MVME162. you may need to carry out certain modifications before installing
the module.
| PHILIPS | 958481321210 PD212 |
| PHILIPS | 958481321220 PD208 |
| PHILIPS | 958481321300 PSB |
| PHILIPS | 958481320201 PROC+ |
| PHILIPS | 958481320201 PROC PLUS |
| PHILIPS | 958481321200 PD216 |
| PHOENIX | FLMC10BASE-T/FO G850 |
| PHOENIX | ST-SI-UK4 |
| PHOENIX | HDFK4 |
| PHOENIX | IBS 24BK-I/O-T |
| PHOENIX | UT 4-HE SI |
| PHOENIX | UT 4-MTD |
| PHOENIX | UT 6-HE SI |
| PHOENIX | QUINT PS-100-240AC/24DC/10 |
| PHOENIX | QUINT-PS-100-240AC/10 |
| PHOENIX | UK3N |
| PHOENIX | UK4-T |
The MVME162 provides software control over most options: by setting bits in
control registers after installing the MVME162 in a system, you can modify its
configuration. (The MVME162 registers are described in Chapter 4. and/or in
the MVME162 Embedded Controller Programmer’s Reference Guide as listed in
Related Documentation in Chapter 1.)
Some options, however, are not software-programmable. Such options are
controlled by manual installation or removal of header jumpers or interface
modules.
Figure 2-1 illustrates the placement of the switches, jumper headers,
connectors, and LED indicators on the MVME162. Manually configurable
items include:
SIM selection for serial port B configuration (J10)
System controller selection (J1)
Synchronous clock selection (J11) for Serial Port 1/Console
Synchronous clock selection (J12) for Serial Port 2
SRAM backup power source selection (J20)
EPROM size selection (J21)
General-purpose readable register configuration (J22)
The MVME162 has been factory tested and is shipped with the configurations
described in the following sections. The MVME162’s required and factory
installed Debug Monitor, MVME162Bug (162Bug), operates with those factory
settings.
SIM Selection
Port B of the MVME162’s Z85230 serial communications controller is
configurable via a serial interface module (SIM) which is installed at connector
J10 on the MVME162 board. Four serial interface modules are available:
EIA-232-D (DCE and DTE)
EIA-530 (DCE and DTE)
You can change Port B from an EIA-232-D to an EIA-530 interface (or vice
versa) by mounting the appropriate serial interface module. Port B is routed
(via the SIM at J10) to the 25-pin DB25 front panel connector marked SERIAL
PORT 2.
For the location of SIM connector J10 on the MVME162. refer to Figure 2-1.
Figure 2-2 illustrates the secondary side (bottom) of a serial interface module,
showing the J1 connector which plugs into SIM connector J10 on the
MVME162. Figure 2-3 (sheets 3-6), Figure 2-4 (sheets 3-4), and Figure 2-5
illustrate the configurations available for Port B.
For the part numbers of the serial interface modules, refer to Table 2-1. The
part numbers are ordinarily printed on the primary side (top) of the SIMs, but
may be found on the secondary side in some versions.
If you need to replace an existing serial interface module with a SIM of another
type, go to Removal of Existing SIM below. If there is no SIM on the main board,
skip to Installation of New SIM